from __future__ import annotations
import pprint
import re  # noqa: F401
import json

{{#vendorExtensions.x-py-datetime-imports}}{{#-first}}from datetime import{{/-first}} {{{.}}}{{^-last}},{{/-last}}{{/vendorExtensions.x-py-datetime-imports}}
{{#vendorExtensions.x-py-typing-imports}}{{#-first}}from typing import{{/-first}} {{{.}}}{{^-last}},{{/-last}}{{/vendorExtensions.x-py-typing-imports}}
{{#vendorExtensions.x-py-pydantic-imports}}{{#-first}}from pydantic import{{/-first}} {{{.}}}{{^-last}},{{/-last}}{{/vendorExtensions.x-py-pydantic-imports}}
{{#vendorExtensions.x-py-other-imports}}
{{{.}}}
{{/vendorExtensions.x-py-other-imports}}
{{#vendorExtensions.x-py-model-imports}}
{{{.}}}
{{/vendorExtensions.x-py-model-imports}}
try:
    from typing import Self
except ImportError:
    from typing_extensions import Self

class {{classname}}({{#parent}}{{{.}}}{{/parent}}{{^parent}}BaseModel{{/parent}}):
    """
    {{#description}}{{{description}}}{{/description}}{{^description}}{{{classname}}}{{/description}}
    """ # noqa: E501
{{#vars}}
    {{name}}: {{{vendorExtensions.x-py-typing}}}
{{/vars}}
{{#isAdditionalPropertiesTrue}}
    additional_properties: Dict[str, Any] = {}
{{/isAdditionalPropertiesTrue}}
    __properties: ClassVar[List[str]] = [{{#allVars}}"{{baseName}}"{{^-last}}, {{/-last}}{{/allVars}}]
{{#vars}}
    {{#vendorExtensions.x-regex}}

    @field_validator('{{{name}}}')
    def {{{name}}}_validate_regular_expression(cls, value):
        """Validates the regular expression"""
        {{^required}}
        if value is None:
            return value

        {{/required}}
        {{#required}}
        {{#isNullable}}
        if value is None:
            return value

        {{/isNullable}}
        {{/required}}
        if not re.match(r"{{{.}}}", value{{#vendorExtensions.x-modifiers}} ,re.{{{.}}}{{/vendorExtensions.x-modifiers}}):
            raise ValueError(r"must validate the regular expression {{{vendorExtensions.x-pattern}}}")
        return value
    {{/vendorExtensions.x-regex}}
    {{#isEnum}}

    @field_validator('{{{name}}}')
    def {{{name}}}_validate_enum(cls, value):
        """Validates the enum"""
        {{^required}}
        if value is None:
            return value

        {{/required}}
        {{#required}}
        {{#isNullable}}
        if value is None:
            return value

        {{/isNullable}}
        {{/required}}
        {{#isArray}}
        for i in value:
            if i not in ({{#allowableValues}}{{#enumVars}}{{{value}}},{{^-last}} {{/-last}}{{/enumVars}}{{/allowableValues}}):
                raise ValueError("each list item must be one of ({{#allowableValues}}{{#enumVars}}{{{value}}}{{^-last}}, {{/-last}}{{/enumVars}}{{/allowableValues}})")
        {{/isArray}}
        {{^isArray}}
        if value not in ({{#allowableValues}}{{#enumVars}}{{{value}}},{{^-last}} {{/-last}}{{/enumVars}}{{/allowableValues}}):
            raise ValueError("must be one of enum values ({{#allowableValues}}{{#enumVars}}{{{value}}}{{^-last}}, {{/-last}}{{/enumVars}}{{/allowableValues}})")
        {{/isArray}}
        return value
    {{/isEnum}}
{{/vars}}

    model_config = {
        "populate_by_name": True,
        "validate_assignment": True,
        "protected_namespaces": (),
    }


{{#hasChildren}}
{{#discriminator}}
    # JSON field name that stores the object type
    __discriminator_property_name: ClassVar[List[str]] = '{{discriminator.propertyBaseName}}'

    # discriminator mappings
    __discriminator_value_class_map: ClassVar[Dict[str, str]] = {
        {{#mappedModels}}'{{{mappingName}}}': '{{{modelName}}}'{{^-last}},{{/-last}}{{/mappedModels}}
    }

    @classmethod
    def get_discriminator_value(cls, obj: Dict) -> str:
        """Returns the discriminator value (object type) of the data"""
        discriminator_value = obj[cls.__discriminator_property_name]
        if discriminator_value:
            return cls.__discriminator_value_class_map.get(discriminator_value)
        else:
            return None

{{/discriminator}}
{{/hasChildren}}
    def to_str(self) -> str:
        """Returns the string representation of the model using alias"""
        return pprint.pformat(self.model_dump(by_alias=True))

    def to_json(self) -> str:
        """Returns the JSON representation of the model using alias"""
        # TODO: pydantic v2: use .model_dump_json(by_alias=True, exclude_unset=True) instead
        return json.dumps(self.to_dict())

    @classmethod
    def from_json(cls, json_str: str) -> {{^hasChildren}}Self{{/hasChildren}}{{#hasChildren}}{{#discriminator}}Union[{{#children}}Self{{^-last}}, {{/-last}}{{/children}}]{{/discriminator}}{{^discriminator}}Self{{/discriminator}}{{/hasChildren}}:
        """Create an instance of {{{classname}}} from a JSON string"""
        return cls.from_dict(json.loads(json_str))

    def to_dict(self) -> Dict[str, Any]:
        """Return the dictionary representation of the model using alias.

        This has the following differences from calling pydantic's
        `self.model_dump(by_alias=True)`:

        * `None` is only added to the output dict for nullable fields that
          were set at model initialization. Other fields with value `None`
          are ignored.
        {{#vendorExtensions.x-py-readonly}}
        * OpenAPI `readOnly` fields are excluded.
        {{/vendorExtensions.x-py-readonly}}
        {{#isAdditionalPropertiesTrue}}
        * Fields in `self.additional_properties` are added to the output dict.
        {{/isAdditionalPropertiesTrue}}
        """
        _dict = self.model_dump(
            by_alias=True,
            exclude={
                {{#vendorExtensions.x-py-readonly}}
                "{{{.}}}",
                {{/vendorExtensions.x-py-readonly}}
                {{#isAdditionalPropertiesTrue}}
                "additional_properties",
                {{/isAdditionalPropertiesTrue}}
            },
            exclude_none=True,
        )
        {{#allVars}}
        {{#isContainer}}
        {{#isArray}}
        {{#items.isArray}}
        {{^items.items.isPrimitiveType}}
        # override the default output from pydantic by calling `to_dict()` of each item in {{{name}}} (list of list)
        _items = []
        if self.{{{name}}}:
            for _item in self.{{{name}}}:
                if _item:
                    _items.append(
                         [_inner_item.to_dict() for _inner_item in _item if _inner_item is not None]
                    )
            _dict['{{{baseName}}}'] = _items
        {{/items.items.isPrimitiveType}}
        {{/items.isArray}}
        {{^items.isArray}}
        {{^items.isPrimitiveType}}
        {{^items.isEnumOrRef}}
        # override the default output from pydantic by calling `to_dict()` of each item in {{{name}}} (list)
        _items = []
        if self.{{{name}}}:
            for _item in self.{{{name}}}:
                if _item:
                    _items.append(_item.to_dict())
            _dict['{{{baseName}}}'] = _items
        {{/items.isEnumOrRef}}
        {{/items.isPrimitiveType}}
        {{/items.isArray}}
        {{/isArray}}
        {{#isMap}}
        {{#items.isArray}}
        {{^items.items.isPrimitiveType}}
        # override the default output from pydantic by calling `to_dict()` of each value in {{{name}}} (dict of array)
        _field_dict_of_array = {}
        if self.{{{name}}}:
            for _key in self.{{{name}}}:
                if self.{{{name}}}[_key] is not None:
                    _field_dict_of_array[_key] = [
                        _item.to_dict() for _item in self.{{{name}}}[_key]
                    ]
            _dict['{{{baseName}}}'] = _field_dict_of_array
        {{/items.items.isPrimitiveType}}
        {{/items.isArray}}
        {{^items.isArray}}
        {{^items.isPrimitiveType}}
        {{^items.isEnumOrRef}}
        # override the default output from pydantic by calling `to_dict()` of each value in {{{name}}} (dict)
        _field_dict = {}
        if self.{{{name}}}:
            for _key in self.{{{name}}}:
                if self.{{{name}}}[_key]:
                    _field_dict[_key] = self.{{{name}}}[_key].to_dict()
            _dict['{{{baseName}}}'] = _field_dict
        {{/items.isEnumOrRef}}
        {{/items.isPrimitiveType}}
        {{/items.isArray}}
        {{/isMap}}
        {{/isContainer}}
        {{^isContainer}}
        {{^isPrimitiveType}}
        {{^isEnumOrRef}}
        # override the default output from pydantic by calling `to_dict()` of {{{name}}}
        if self.{{{name}}}:
            _dict['{{{baseName}}}'] = self.{{{name}}}.to_dict()
        {{/isEnumOrRef}}
        {{/isPrimitiveType}}
        {{/isContainer}}
        {{/allVars}}
        {{#isAdditionalPropertiesTrue}}
        # puts key-value pairs in additional_properties in the top level
        if self.additional_properties is not None:
            for _key, _value in self.additional_properties.items():
                _dict[_key] = _value

        {{/isAdditionalPropertiesTrue}}
        {{#allVars}}
        {{#isNullable}}
        # set to None if {{{name}}} (nullable) is None
        # and model_fields_set contains the field
        if self.{{name}} is None and "{{{name}}}" in self.model_fields_set:
            _dict['{{{baseName}}}'] = None

        {{/isNullable}}
        {{/allVars}}
        return _dict

    @classmethod
    def from_dict(cls, obj: Dict) -> {{^hasChildren}}Self{{/hasChildren}}{{#hasChildren}}{{#discriminator}}Union[{{#children}}Self{{^-last}}, {{/-last}}{{/children}}]{{/discriminator}}{{^discriminator}}Self{{/discriminator}}{{/hasChildren}}:
        """Create an instance of {{{classname}}} from a dict"""
        {{#hasChildren}}
        {{#discriminator}}
        # look up the object type based on discriminator mapping
        object_type = cls.get_discriminator_value(obj)
        if object_type:
            klass = globals()[object_type]
            return klass.from_dict(obj)
        else:
            raise ValueError("{{{classname}}} failed to lookup discriminator value from " +
                             json.dumps(obj) + ". Discriminator property name: " + cls.__discriminator_property_name +
                             ", mapping: " + json.dumps(cls.__discriminator_value_class_map))
        {{/discriminator}}
        {{/hasChildren}}
        {{^hasChildren}}
        if obj is None:
            return None

        if not isinstance(obj, dict):
            return cls.model_validate(obj)

        {{#disallowAdditionalPropertiesIfNotPresent}}
        {{^isAdditionalPropertiesTrue}}
        # raise errors for additional fields in the input
        for _key in obj.keys():
            if _key not in cls.__properties:
                raise ValueError("Error due to additional fields (not defined in {{classname}}) in the input: " + _key)

        {{/isAdditionalPropertiesTrue}}
        {{/disallowAdditionalPropertiesIfNotPresent}}
        _obj = cls.model_validate({
            {{#allVars}}
            {{#isContainer}}
            {{#isArray}}
            {{#items.isArray}}
            {{#items.items.isPrimitiveType}}
            "{{{baseName}}}": obj.get("{{{baseName}}}"){{^-last}},{{/-last}}
            {{/items.items.isPrimitiveType}}
            {{^items.items.isPrimitiveType}}
            "{{{baseName}}}": [
                    [{{{items.items.dataType}}}.from_dict(_inner_item) for _inner_item in _item]
                    for _item in obj.get("{{{baseName}}}")
                ] if obj.get("{{{baseName}}}") is not None else None{{^-last}},{{/-last}}
            {{/items.items.isPrimitiveType}}
            {{/items.isArray}}
            {{^items.isArray}}
            {{^items.isPrimitiveType}}
            {{#items.isEnumOrRef}}
            "{{{baseName}}}": obj.get("{{{baseName}}}"){{^-last}},{{/-last}}
            {{/items.isEnumOrRef}}
            {{^items.isEnumOrRef}}
            "{{{baseName}}}": [{{{items.dataType}}}.from_dict(_item) for _item in obj.get("{{{baseName}}}")] if obj.get("{{{baseName}}}") is not None else None{{^-last}},{{/-last}}
            {{/items.isEnumOrRef}}
            {{/items.isPrimitiveType}}
            {{#items.isPrimitiveType}}
            "{{{baseName}}}": obj.get("{{{baseName}}}"){{^-last}},{{/-last}}
            {{/items.isPrimitiveType}}
            {{/items.isArray}}
            {{/isArray}}
            {{#isMap}}
            {{^items.isPrimitiveType}}
            {{^items.isEnumOrRef}}
            {{#items.isContainer}}
            {{#items.isMap}}
            "{{{baseName}}}": dict(
                (_k, dict(
                    (_ik, {{{items.items.dataType}}}.from_dict(_iv))
                        for _ik, _iv in _v.items()
                    )
                    if _v is not None
                    else None
                )
                for _k, _v in obj.get("{{{baseName}}}").items()
            )
            if obj.get("{{{baseName}}}") is not None
            else None{{^-last}},{{/-last}}
            {{/items.isMap}}
            {{#items.isArray}}
            "{{{baseName}}}": dict(
                (_k,
                        [{{{items.items.dataType}}}.from_dict(_item) for _item in _v]
                        if _v is not None
                        else None
                )
                for _k, _v in obj.get("{{{baseName}}}").items()
            ){{^-last}},{{/-last}}
            {{/items.isArray}}
            {{/items.isContainer}}
            {{^items.isContainer}}
            "{{{baseName}}}": dict(
                (_k, {{{items.dataType}}}.from_dict(_v))
                for _k, _v in obj.get("{{{baseName}}}").items()
            )
            if obj.get("{{{baseName}}}") is not None
            else None{{^-last}},{{/-last}}
            {{/items.isContainer}}
            {{/items.isEnumOrRef}}
            {{#items.isEnumOrRef}}
            "{{{baseName}}}": dict((_k, _v) for _k, _v in obj.get("{{{baseName}}}").items()){{^-last}},{{/-last}}
            {{/items.isEnumOrRef}}
            {{/items.isPrimitiveType}}
            {{#items.isPrimitiveType}}
            "{{{baseName}}}": obj.get("{{{baseName}}}"){{^-last}},{{/-last}}
            {{/items.isPrimitiveType}}
            {{/isMap}}
            {{/isContainer}}
            {{^isContainer}}
            {{^isPrimitiveType}}
            {{^isEnumOrRef}}
            "{{{baseName}}}": {{{dataType}}}.from_dict(obj.get("{{{baseName}}}")) if obj.get("{{{baseName}}}") is not None else None{{^-last}},{{/-last}}
            {{/isEnumOrRef}}
            {{#isEnumOrRef}}
            "{{{baseName}}}": obj.get("{{{baseName}}}"){{#defaultValue}} if obj.get("{{baseName}}") is not None else {{defaultValue}}{{/defaultValue}}{{^-last}},{{/-last}}
            {{/isEnumOrRef}}
            {{/isPrimitiveType}}
            {{#isPrimitiveType}}
            {{#defaultValue}}
            "{{{baseName}}}": obj.get("{{{baseName}}}") if obj.get("{{{baseName}}}") is not None else {{{defaultValue}}}{{^-last}},{{/-last}}
            {{/defaultValue}}
            {{^defaultValue}}
            "{{{baseName}}}": obj.get("{{{baseName}}}"){{^-last}},{{/-last}}
            {{/defaultValue}}
            {{/isPrimitiveType}}
            {{/isContainer}}
            {{/allVars}}
        })
        {{#isAdditionalPropertiesTrue}}
        # store additional fields in additional_properties
        for _key in obj.keys():
            if _key not in cls.__properties:
                _obj.additional_properties[_key] = obj.get(_key)

        {{/isAdditionalPropertiesTrue}}
        return _obj
        {{/hasChildren}}

{{#vendorExtensions.x-py-postponed-model-imports.size}}
{{#vendorExtensions.x-py-postponed-model-imports}}
{{{.}}}
{{/vendorExtensions.x-py-postponed-model-imports}}
# TODO: Rewrite to not use raise_errors
{{classname}}.model_rebuild(raise_errors=False)
{{/vendorExtensions.x-py-postponed-model-imports.size}}
